<> "The repository administrator has not yet configured an RDF license."^^ . <> . . "On Filaments in Molecular Clouds and their Connection to Star Formation"^^ . "In recent years, there have been many studies on the omnipresence and structures of filaments in star-forming regions, as well as the role of their fragmentation in the process of star formation. However, only a few comprehensive studies have analysed the evolution of filaments and their distribution with the Galactic disk where the filaments form self-consistently as part of large-scale molecular cloud evolution.\r\nIn this thesis, I study the effect of inclination on dust observations of filaments to evaluate whether the variations would enable the identification of further filaments in existing dust surveys. I address the early evolution of pc-scale filaments that form within individual clouds and focus on the questions how and when the filaments fragment, and how the fragmentation relates to typically used observables of the filaments.\r\nI perform dust radiative transfer calculations on models of cylinders and reconstructions of observed star-forming regions. For evaluating the equilibrium state of filaments and the nature of their fragmentation I examine three simulated molecular clouds formed in kpc-scale numerical simulations modelling a self-gravitating, magnetised, stratified, supernova-driven interstellar medium.\r\nI find that the observables of filaments in dust emission are on average on small scales influenced by inclination; yet the variations strongly depend on the structure of the object. The first fragments appear when the line masses of the simulated filaments lie well below the critical line mass of Ostriker’s isolated hydrostatic equilibrium solution. This indicate that, although the turbulence of the entire clouds is mostly driven by gravitational contraction, fragmentation does not occur do to gravitational instability, but is supported by colliding flow motions.\r\nI conclude that there is no single quantity in my analysis that can uniquely trace the inclination and 3D structure of a filament based on dust observations alone. A simple model of an isolated, isothermal cylinder may not provide a good approach for fragmentation analysis, independently of the dominant driving source of the parental cloud."^^ . "2018" . . . . . . . "Roxana-Adela"^^ . "Chira"^^ . "Roxana-Adela Chira"^^ . . . . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (PDF)"^^ . . . "rchira_phdthesis.pdf"^^ . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (Other)"^^ . . . . . . "indexcodes.txt"^^ . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (Other)"^^ . . . . . . "preview.jpg"^^ . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (Other)"^^ . . . . . . "medium.jpg"^^ . . . "On Filaments in Molecular Clouds and their Connection to Star Formation (Other)"^^ . . . . . . "small.jpg"^^ . . "HTML Summary of #24013 \n\nOn Filaments in Molecular Clouds and their Connection to Star Formation\n\n" . "text/html" . . . "520 Astronomie"@de . "520 Astronomy and allied sciences"@en . . . "530 Physik"@de . "530 Physics"@en . .